Automatic cart wash apparatus

Abstract

An automatic cart wash apparatus. The automatic cart wash apparatus provides improved cleaning of stock carts on a regular basis over manual cleaning by store employees. The automatic cart wash apparatus includes three main stages: a debris removal (vacuum) stage, a cleaning (wash, sanitize, rinse) stage, and a drying stage. The debris removal stage uses forced air and / or suction to remove solid and generally non-soluble waste, such as a paper or other trash and debris, from a stock cart. The cleaning stage uses a selection of detergents, sanitizing agents, and rinse agents to remove soluble or sticky waste, such as food and liquids, and to kill germs, viruses, and bacteria present on the cart. The drying stage removes excess liquids from the cart making it ready for use by the next customer.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application claims the benefit of U.S. Provisional Application No. 60 / 629,499, filed Nov. 19, 2004.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT[0002]Not Applicable.BACKGROUND OF THE INVENTION[0003]1. Field of Invention[0004]This invention relates to the washing and cleansing of stock carts including shopping carts with wire-rack or lattice baskets.[0005]2. Description of the Related Art[0006]Stock carts are generally utilized in transporting the goods intended for purchase through a store to the checkout counter and then in transporting the purchased products on to the customer's vehicle. Throughout the day, stock carts are handled by various people, carry a variety of items, and left outside until returned to the interior of the store. Each of these conditions presents an opportunity for the carts to become soiled. For example, when outside the carts can be soiled by oils and other contaminants in the parking lot,...

AI Technical Summary

Benefits of technology

[0018]An automatic cart wash apparatus is shown and described. The automatic cart wash apparatus provides improved cleaning of stock carts on a regular basis over manual cleaning by store employees. The automatic cart wash apparatus includes three main stages: a debris removal (vacuum) stage, a cleaning (wash, sanitize, rinse) stage, and a drying stage. The debris removal stage uses forced air and / or suction to remove solid and generally non-soluble waste, such as a paper or other trash and debris, from a stock cart. The cleaning stage uses a selection of detergents, sanitizing agents, and rinse agents to remove soluble or sticky waste, such as food and liquids, and to kill germs, viruses, and bacteria present on the cart. The drying stage removes excess liquids from the cart making it ready for use by the next customer.

[0023]The cleaning stage follows the vacuum stage. The primary function of the cleaning stage is the application of one or more cleaning fluids to the stock cart. The cleaning fluids are selected to remove dirt and grime and / or kill germs and contaminants. The brushes provide scrubbing to assist in the removal of debris attached to the cart. In conjunction with the cleaning fluids, the brushes, thoroughly cleaning the more heavily soiled areas of the cart, such as the child transportation seat and the cart handle. A pair of vertically-mounted brushes scrubs the sides of the cart while a horizontally-mounted brush scrubs the handle and the child transportation seat. The vertically mounted brushes serve to standardize the position of the cart and to provide stability while they are in engagement with the cart.

[0028]One or more sensors provide information to a controller about the presence and / or position of a stock cart within the automatic cart wash apparatus. The control system of Figure is associated with a highly instrumented embodiment of the automatic cart wash apparatus. The control system as shown includes a first cart sensor, which detects the presence of a stock cart. When the presence of a cart is detected by the first cart sensor, the controller activates the drive motor for the conveyance system. The next sensor is a tied to the vacuum system and detects when a stock cart enters the vacuum stage. In response to the signal from the vacuum sensor, the controller activates the vacuum stages including the blower and the exhaust system. The cleaning stage sensors, notify the controller when a cart is in position for washing and rinsing. A signal from the wash sensor causes the controller to activate the brushes, and the first fluid delivery system. A signal from the subsequent rinse sensor allows the controller to activate the second fluid delivery system. Carts leaving the cleaning stage trigger the dryer sensor causing the controller to start the dryer. An exit sensor allows the controller to disengage the conveyance system.

[0029]In addition to provide a platform for the sensing mechanisms, the doors serve similar functions to the panels used to enclose the automatic cart wash apparatus. By providing separation between the stages, the doors serve to preserve the integrity of the cleaning process.

[0030]Other sensors providing information to the controller include a supply sensor system and a filter sensor system, which signal the controller of problem conditions. Upon receipt of a signal from the supply sensor system or the filter sensor system, the controller can notify the operator through a notification system. A reclamation sensor monitors fluid levels in the reclamation pan and / or the holding tank. The notification system includes indicator lights, audible alarms, and / or display panels for providing textual status information. A user interface device allows an operator to control various parameters, control schemes, and modes for the automatic cart wash apparatus.

Problems solved by technology

Each of these conditions presents an opportunity for the carts to become soiled.

For example, when outside the carts can be soiled by oils and other contaminants in the parking lot, rain, snow, and animal contaminants.

Each instance can result in the contamination, even unwillingly or unknowingly, with influenza or viral bacteria.

Finally, contamination can occur from items are placed into the carts, particularly during the transportation of raw foodstuffs such as raw vegetables, fruits, meat, fish and poultry products, all of which may be dangerous in the uncooked form.

It is not uncommon for raw foodstuffs to leak material onto the carts and onto adjacent products placed in the carts.

However, it is extremely labor intensive to manually clean shopping carts.

Therefore, it is not economically feasible for a cart to be cleaned after each use with manual cleaning techniques.

Some retailers may have a procedure for manually cleaning shopping carts but most conventional shopping carts are created with a wire-type design or plastic injection molds which are very difficult for an operator to clean manually.

Even if the cart is cleaned a single time during the day by store personnel, the risk of contamination is reintroduced after the next use of the cart.

A bump on the exit ramp shakes excess water from the carts.

Further, carts are manually placed in and removed from the washing by chamber so no provision exists for addressing the unique problems of cleaning nestable wire carts.

While incorporating basic wash features such as washing and rinsing sprays with reclamation systems and drying systems, the car wash systems are not adapted to the unique problems of cleaning high volumes of nestable wire carts.

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